TY - GEN
T1 - Concentration dependent growth velocities in undercooled al-rich Al-Ni alloy systems
AU - Ehlen, Georg J.
AU - Wang, Hai Feng
AU - Herlach, Dieter M.
PY - 2014
Y1 - 2014
N2 - Dendrite growth velocity V as a function of undercooling ΔT on the Al-rich side of the Al-Ni system has recently been measured by electromagnetic levitation. The results have shown an anomalous behaviour, which so far cannot be theoretically described. The present work uses two simplified qualitative models of sharp interface theory, one of them treating the forming AlNi (B2) phase as a solid-solution, one treating it as an intermetallic phase, to investigate the influence of the phase diagram on the growth velocities. The results imply that the concentration dependent growth behaviour is a superposition of at least two effects: (1) A strong decrease of the total growth velocity level for increasing Al concentrations. (2) An increase of growth velocities with increase of Al concentration at medium and low undercoolings. The present work is able to explain the first effect, namely the concentration dependent reduction of velocities. Results are compared to experimental data. In both models the properties of the phase diagram lead to an increase of the constitutional undercooling ΔTk when the Al content increases. This reduces the fraction left for kinetic undercooling ΔTc which is responsible for interface migration and which determines the growth velocity. Neither of the models can reproduce the second effect.
AB - Dendrite growth velocity V as a function of undercooling ΔT on the Al-rich side of the Al-Ni system has recently been measured by electromagnetic levitation. The results have shown an anomalous behaviour, which so far cannot be theoretically described. The present work uses two simplified qualitative models of sharp interface theory, one of them treating the forming AlNi (B2) phase as a solid-solution, one treating it as an intermetallic phase, to investigate the influence of the phase diagram on the growth velocities. The results imply that the concentration dependent growth behaviour is a superposition of at least two effects: (1) A strong decrease of the total growth velocity level for increasing Al concentrations. (2) An increase of growth velocities with increase of Al concentration at medium and low undercoolings. The present work is able to explain the first effect, namely the concentration dependent reduction of velocities. Results are compared to experimental data. In both models the properties of the phase diagram lead to an increase of the constitutional undercooling ΔTk when the Al content increases. This reduces the fraction left for kinetic undercooling ΔTc which is responsible for interface migration and which determines the growth velocity. Neither of the models can reproduce the second effect.
KW - Al-rich al-ni
KW - Concentration dependence
KW - Constitutional undercooling
KW - Dendrite growth velocity
KW - Kinetic undercooling
UR - http://www.scopus.com/inward/record.url?scp=84901470605&partnerID=8YFLogxK
U2 - 10.4028/www.scientific.net/MSF.790-791.485
DO - 10.4028/www.scientific.net/MSF.790-791.485
M3 - 会议稿件
AN - SCOPUS:84901470605
SN - 9783038350934
T3 - Materials Science Forum
SP - 485
EP - 490
BT - Solidification and Gravity VI
PB - Trans Tech Publications Ltd
T2 - 6th International Conference on Solidification and Gravity
Y2 - 2 September 2013 through 5 September 2013
ER -